Nanoparticles: The Plant Saviour under Abiotic Stresses.

Climate change significantly affects plant growth and productivity by causing different biotic and abiotic stresses to plants. Among the different abiotic stresses, at the top of the list are salinity, drought, temperature extremes, heavy metals and nutrient imbalances, which contribute to large yield losses of crops in various parts of the world, thereby leading to food insecurity issues. In the quest to improve plants' abiotic stress tolerance, many promising techniques are being investigated. These include the use of nanoparticles, which have been shown to have a positive effect on plant performance under stress conditions. Nanoparticles can be used to deliver nutrients to plants, overcome plant diseases and pathogens, and sense and monitor trace elements that are present in soil by absorbing their signals. A better understanding of the mechanisms of nanoparticles that assist plants to cope with abiotic stresses will help towards the development of more long-term strategies against these stresses. However, the intensity of the challenge also warrants more immediate approaches to mitigate these stresses and enhance crop production in the short term. Therefore, this review provides an update of the responses (physiological, biochemical and molecular) of plants affected by nanoparticles under abiotic stress, and potentially effective strategies to enhance production. Taking into consideration all aspects, this review is intended to help researchers from different fields, such as plant science and nanoscience, to better understand possible innovative approaches to deal with abiotic stresses in agriculture.

Shoot potassium content provides a physiological marker to screen cotton genotypes for osmotic and salt tolerance.

Drought and salinity are considered two major abiotic stresses that diminish cotton production worldwide. Studying common morphological and physiological responses in cotton cultivars may help plant biologists to develop and apply standard screening criteria for either of these stresses and for their combination. Therefore, this research aimed to assess the suitability of several physiological parameters as diagnostic to report on osmotic and salinity tolerance in six elite cotton genotypes. Data for relative growth rate (RGR), RGR-reduction, potassium (K+) concentrations in roots, xylem sap and shoots, stomatal conductance (gs) and net photosynthesis rate (Pn) were assessed. Based on RGR and RGR-reduction, we observed an association between osmotic tolerance and salinity tolerance of cotton genotypes. Furthermore, this study found that tolerant cotton genotypes were better able to maintain high RGR, tissue K+, and gas exchange under both hyperosmotic and saline conditions. Shoot K+ levels showed high negative correlations with both osmotic and salinity stress and emerged as a convenient and suitable parameter to assess cotton tolerance to either stress.Novelty statementCotton (Gossypium hirsutum) is a leading fiber crop that is cultivated in more than 52 countries. Much of the land where cotton is grown faces co-occurring drought and salinity abiotic stress which negatively impacts cotton yield and fiber quality. In the present study, cotton genotypes were identified with tolerance to both hyperosmolarity and salinity. Furthermore, we show that shoot potassium content is a diagnostic trait that reports on both osmotic and salinity stress and hence a convenient tool for screening cotton germplasm.

Floral Characterization of Pomegranate Genotypes to Improve Hybridization Efficiency.

Pomegranate (Punica granatum) has staminate (male), androgynous (hermaphrodite), and intermediate flower types. Floral characterization is difficult for breeding efficiency across many pomegranate genotypes in Pakistan, which is essential for pomegranate cultivar enhancements. The present research focused on the floral characterization and breeding efficiency of fifteen pomegranate genotypes. Flower sex ratio, floral morphological parameters, i.e., flower length, ovary width, flower notch, flower tip and stigma with style length, and fruit set percentage were examined during the experiment. In terms of sex ratio, male flowers were found to be higher among all genotypes. Due to clear differences in flower length, width, and heterostyly facilitating visual identification of the hermaphrodite flowers, genotype Ternab-2, Kandhari White, and Kandhari Red had higher fruit set (≥70%) among all cross combinations attempted. Genotype Sava had higher flower length and heterostyly of hermaphrodite flower type, but ovary width was not very distinct, leading to average crossing success (85-34%). In conclusion, single or combination of morphological characters can be used for accurate identification of hermaphrodite flowers, which can improve hybrid efficiency and fruit set after artificial cross-pollination.

Comparative effectiveness of erythropoietin alpha and beta in hemodialysis patients: a single-center prospective observational study.

BACKGROUND AND OBJECTIVES: Anemia is a prevalent complication endured by patients with chronic renal disease. Renal anemia also leads to the development of cardio-vascular complications. Epoetin alpha and beta are recombinant human erythropoietin prioritized for managing anemia in hemodialysis patients. The current study aimed to compare the therapeutic efficacy of both erythropoietin alpha and erythropoietin beta in treating renal anemia. MATERIALS AND METHODS: This prospective observational study was conducted in a Renal Dialysis Centre at a tertiary care Hospital of Karachi, Pakistan for a period of 3 months. The two erythropoietin products used were human recombinant erythropoietin alpha (Tropin®) and erythropoietin beta (Recormon®). Both groups were age-matched, BMI, eGFR, gender, and comorbidities like diabetes and hypertension were indifferent. The comparative analysis was performed after the completion of 3 months. RESULTS: A total of 94 participants were included in the analysis, 54 in group A and 40 in group B. Mean albumin, urea, creatinine, ferritin, iron, and transferrin saturation at inclusion were statistically insignificant, TIBC was higher in group A (p = 0.005) and CRP levels were slightly higher in group B (p = 0.050). There was significant improvement in Hb level (p = 0.025), PCV (p = 0.001), and RBC count (p = 0.007) in group B. While in group A, there was significantly increased MCV (p = 0.005) and MCHC (p = 0.002). In intention to treat analysis, 22.2% of subjects in group A and 40.0% in group B reached desired Hb levels of ≥11 g/l after 3 months. CONCLUSION: In our assessment of hemodialysis patients, erythropoietin beta was found more effective than erythropoietin alpha.

Genome-wide identification and evolution of Dof transcription factor family in cultivated and ancestral cotton species.

The DNA-binding with one finger (Dof) proteins are transcription factors involved in many biological processes in plants. To predict the evolutionary pattern, a genome-wide in-silico analysis of Dof TFs family in diploid (Gossypium arboreum and Gossypium raimondii) and allotetraploid (Gossypium hirsutum and Gossypium barbadense) cotton species were carried out. In G. arboreum, we have identified 58 non-redundant genes encoding Dof proteins renamed as GaDof (G. arboreum Dof), 55 Dof genes were identified in G. raimondii (GrDof), 89 were predicted ffrom G. hirsutum (GhDof) and the highest, 110 Dof genes were identified in G. barbadense (GbDof). The phylogenetic analysis, physical location, gene structure, conserved domain analyses were also investigated for G. arboreum, G. raimondii, and G. hirsutum. The gene expression pattern in G. hirsutum, at different growth stages, revealing the probable involvement of some GhDof genes in growth and development. These genes may improve seed germination and growth in cotton.

Genome Wide Analysis of Citrus sinensis Heat Shock Proteins.

BACKGROUND: Plant and animal cells possess a ubiquitous protein known as heat shock proteins (HSPs). Hsps were originally described in relation to heat shock and against abiotic and biotic stresses. Heat shock protein was classified in other crops on the bases of single classes or all classes but in Citrus sinensis Hsps groups, classes, subfamilies and members were not classified and characterized up to our knowledge. OBJECTIVES: Present study was focused on the identification and grouping of C. sinensis Hsps (CsHsps) classes, members among classes, their phylogenetic relationship, gene structure, conserved motifs and identification of proteins by using bioinformatics tools and analyses. MATERIALS AND METHODS: Genomic, Peptide and CDS sequences of CsHsps were downloaded from phytozome. MEGA 7 used for the phylogenetic analysis, GSDS for gene structure, UGENE for the multiple sequence alignment and MEME suite for the conserved motif analysis. RESULTS: The genome size of C. sinensis was 367 Mb, Chromosome number (2n)18, having 151 Hsps with six groups CsHsp10, 20, 40, 60,70 and 90. CsHsp20 was the largest group having 54 members, followed by CsHsp60 and CsHsp70 both having 30 members respectively. CONCLUSION: CsHsps members within a class shared more similar gene and protein structure. CsHsp 60, CsHsp 70 and CsHsp90 shared more conserved and similar amino acid pattern. Each class had some important proteins such as Cpn in CsHsp10, Hypothetical proteins in CsHsp20 and 40, Dnak in CsHsp60, Molecular chaperone in CsHsp70 and Hsp90 in CsHsp90. These proteins are produced by cells in response to stresses in citrus. Chaperonins and some hypothetical proteins identified in CsHsps, help in ATP synthesis and protein degradation. This is genome wide analysis and classification sets the groundwork for future investigations to fully characterize functionally the Citrus Hsps families and underscores the relevance of Hsps response to abiotic and biotic stresses in Citrus.